工作經歷

2018年7年至今，北京科技大學土木與資源工程學院，副教授

2015年8月-2018年6月，北京科技大學土木與資源工程學院，講師

2015年8月-2017年12月，北京科技大學土木與資源工程學，師資博士後

2013年9月-2014年9月，美國哥倫比亞大學，訪問學者

2011年9月-2012年3月，美國北卡羅萊納州州立大學，訪問學者

2010年9月-2015年6月，北京科技大學岩土工程專業，博士

2009年9月-2010年6月，北京科技大學工程力學專業，碩博連讀

2005年9月-2009年6月，北京理工大學飛行器設計與工程專業，學士

1. 岩石力學與岩石動力學

2. 能源地下結構

3. 工程建設碳測算與減碳路徑

建築結構智能監測關鍵技術研究，北京科技大學順德創新學院科技創新專項,2021.9.1-2022.8.31，參與。

2022年12月，工程建設科學技術進步獎二等獎

2021年12月，中國石油工程建設協會科技進步獎二等獎

2021年03月，中國職業安全健康協會科學技術獎二等獎

2020年12月，中國有色金屬工業科學技術獎二等獎

2017年12月，北京科技大學優秀博士後

2017年10月，中國岩石力學與工程學會2017年度優秀博士學位論文

2015年06月，北京市優秀畢業生

2015年06月，北京科技大學優秀博士論文

2014年10月，中國工程爆破協會科學進步一等獎

以第一/通訊作者共發表SCI/EI論文43篇，其中SCI論文32篇、EI論文11篇。

[1] Transport Characteristics of Tailing Sand Particles under Slotted Tube Overlapped with Geotextile and Steel mesh. Geofluids, 2023, 2023: 1270931.

[2] Study on Wind-Proof Effect and Stability of Windbreak Fence in Alpine Skiing Center. Sustainability, 2023, 15, 3369

[3] Study on Damage Behavior and Its Energy Distribution of Deep Granite at High-Temperature Conditions. Applied Sciences, 2023. 13：6498.

[4] 巴西圓盤劈裂二維及三維數值模擬研究, 工程科學學報, 2022. 44(1): 131-142.

[5] Analysis on rock fracture signals and exploration of infrared advance prediction under true triaxial loading. Journal of Materials in Civil Engineering, 2022, 34(5): 04022058.

[6] Response of energy pile-soil structure and pile group effect: An indoor similarity simulation study. Journal of Building Engineering, 2022, 51: 104247.

[7] Effect of thermal treatment on physical and mechanical properties of sandstone for thermal energy storage: a comprehensive experimental study. Acta Geotechnica, 2022, 17: 3887–3908.

[8] Modification of CSIRO method in Long-term Monitoring of Slope-Induced Stress [J]. Frontiers in Earth Science. 2022. 10: 981470.

[9] Effect of microwave heating on the mechanical properties and energy dissipation characteristics of hard rock [J]. Environmental Earth Sciences, 2022, 81: 415.

[10] Study on crack evolutional behavior of rocks in triaxial compression based on colony growth dynamics model. Scientific Reports, 2022, 12: 18459.

[11] Study on cross-scale pores fractal characteristics of granite after high temperature and rock failure precursor under uniaxial compression. Powder Technology, 2022, 401: 117330.

[12] Research on the Conversion Relationship between Dynamic Point Load Strength and Dynamic Compressive Strength Based on Energy System. Shock and Vibration, 2022, 2022: 6988292.

[13] Multi-crackNet: A Fast segmentation and Quatification Combined Method for Rock Discontinuity Traces by Capturing an Image. Geofluids, 2022, 2022, 1832662.

[14] A new environmentally friendly utilization of energy piles into geotechnical engineering in Northern China. Advance in Civil Engineering, 2021, 2021: 4689062.

[15] Study on Magnetite Ore Crushing Assisted by Microwave Irradiation. Minerals, 2021, 11, 1127.

[16] 能源樁三維螺旋線熱源瞬態傳熱模型研究, 工程科學學報, 2021, 43(11): 1569-1576.

[17] Study on the fracture behavior of prefabricated fissures granite based on DIC and laser scanning techniques[J]. Fatigue Fract Eng Mater Struct. 2021, 44: 1–19.

[18] A Method to Predict Rock Fracture with Infrared Thermography Based on Heat Diffusion Analysis [J]. Geofluids, 2021, 2021: 1-13.

[19] Enhancing heat transfer in the heat exchange medium of energy piles [J]. Journal of Building Engineering, 2021, 26: 102375.

[20] Rockburst Prediction on the Superimposed Effect of Excavation Accumulation Energy and Blasting Vibration Energy in Deep Roadway [J]. Shock and Vibration, 2021,2021: 6644590.

[21] 厚徑比對高阻尼橡膠材料的緩衝吸能特性實驗. 哈爾濱工業大學學報, 2021, 53(5): 165-172.

[22] 基於微波加熱技術的硬岩破裂方法探究. 煤炭學報, 2021, 46(s1): 241-248.

[23] Energy Dissipation Analysis of Dynamic Splitting Damage of Granite by Joint Inclination and Roughness, Geotech Geol Eng, 2020, 38:3585-3595.

[24] Effects of microwave irradiation on impact comminution and energy absorption of magnetite ore, IOP Conf. Series: Earth and Environmental Science, 2020, 570: 052003.

[25] Dynamic analysis and criterion evaluation on rockburst considering the fractured dissipative energy. Advances in Mechanical Engineering, 2019, 11(3)：1-12.

[26] A study on heat transfer characteristics and pile group influence of enhanced heat transfer energy piles. Journal of Building Engineering, 2019, 24: 100768.

[27] Study on dynamic compaction characteristics of gravelly soils with crushing effect. Soil Dynamics and Earthquake Engineering, 2019, 120: 158-169.

[28] 考慮樁周土體的海上風電大直徑單樁變徑體系1階頻率研究. 太陽能學報, 2019, 40(5): 1433-1440.

[29] Enhanced Heat Transfer Characteristics of Graphite Concrete and Its Application in Energy Piles. Advances in Materials Science and Engineering, 2018, 2018: 8142392.

[30] Laboratory testing on energy absorption of high-damping rubber in a new bolt for preventing rockburst in deep hard rock mass. Shock and Vibration, 2018, 2018: 7214821.

[31] Laboratory Investigation of Energy Propagation and Scattering Characteristics in Cylindrical Rock Specimens, Advances in Civil Engineering, 2018, 2018: 2052781.

[32] 高阻尼橡膠用於岩石動載衝擊防護的吸能特性試驗研究. 岩石力學與工程學報, 2018, 37(4): 961-968.

[33] Thermal effect on structural interaction between energy pile and its host soil. Advances in Materials Science and Engineering, 2017, 2017: 7121785.

[34] Energy characterization based assessment of pillar recovery. Arabian Journal of Geosciences, 2017, 10:367

[35] Adopting method of key block and energy distribution to predict the slope stability under blasting. Journal of Vibroengineering, 2017,19(8)：6183‑6197.

[36] Implementation of the strain hardening model into buffer material in high level waste repository. Geosciences Journal, 2017, 21(2): 277–289.

[37] Implementation of a simulation inversion method into estimating the damping coefficient in blasting, Journal of Vibroengineering, 2016, 18(5): 3037-3047.

[38] High Strain Rate Characteristics of Rock Materials Under Dynamic Impact, Electronic Journal of Geotechnical Engineering, 2016, 21: 7885-7892.

[39] Adopting the In-Situ Test and Numerical Simulation to the Design of Underwater Rock Plug Blasting, Electronic Journal of Geotechnical Engineering, 2016, 21(19): 6359-6370.

[40] Blasting Vibration Safety Criterion Analysis with Equivalent Elastic Boundary: Based on Accurate Loading Model, Shock and Vibration, 2015, 2015: 1-10.

[41] Study on the Seepage and Stability of Carbon Dioxide Geological Storage inScrap Metal Mine: A Finite Difference Analysis, Advances in Mechanical Engineering, 2015, 7(1): 1-13.

[42] Analysis of the Blasting Compaction on Gravel Soil, Journal of Chemistry, 2015, 2015: 1-9.

[43] 基於精確爆破載荷分析的安全距離判據, 工程力學, 2015, 32(10): 123-129.^[1]